Method and apparatus for manufacturing glassware



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N, BCMSK METHOD AND APPARATUS FOR MANUFACTURING GLASSWARE \IH hi1 Patented Oct. 18, 1927.

UNMT

WILLIAM EMIL BOOK, COMPANY,

OF EAGLE POINT COLONY, OHIO, ASSIGNOR TO THE ERIE GLASS 0]! TOLEDO, OHIO, A CORPORATION OF DELAWARE.

METHOD AND APPARATUS FOR MANUFACTURING GLASSWARE.

Application flied June 11, 1923. Serial No. 644,562.

This invention relates to the manufacture of glassware and particularly to the continuous formation of sheet glass.

The general object of the invention is the production of sheet glass in a rapid, efticient and economical manner without creating strains, shrouding sheet and without m faces intermediate 1 gripping severing or surface lines in the arring the sheet surongitudinally spaced points thereof, and subsequently the sheet sections along or adjacent to the points of gripping of the same by the feeding means,

the sheet sections being deposited in or onto a carrying means passing through a leer.

A specific object of the invention is the PIOVISIOII Of ll'lOVlllg cooling aprons or blankets at opposite sides of the sheet adjacent to its formative disposed at and continue in point and which are close proximity radiation through int ervemng spaces.

A further object of the invention is the provision of integral whatsoever means at intervals longitudinally in a formative condition,

or detrimental shroudprevent any material mg and narrowing 1n the sheet intermediate cross-bar portions by predetermined spaced of the sheet while which cross-bars of the soft portions of the bars.

A further specific object of the invention is the provision of sim ple and efiicient means for intermittently gripping the sheet adjacent to its formative point and effecting a rapid cooling of the form the sheet with in bar portions at the which portions after by the gripping bars, rowing in !and becomes set.

A further specific o is to so grip or engage ing or feed controlling means except momentarily, only one point there is,

gripped portions to tegral hardened crosspoints of gripping, a release of the sheet serve to prevent narshrouding before the sheet bject of the invention the sheet by the feedtherefor that of gripping of the sheet by such means between the source of g tive point of the sheet ing the means, stretching of the and shrouding, which two rigidly gripped due to the soft glass lass supply or forma' and the point of leavthereby permitting sufficient sheet to prevent wrinkling might occur between portions of the sheet therebetween flowing down by gravity action faster than the permissible feeding movement of the sheet.

A further specific object of the invention is the provision of the discharge slot for the glass sheet in the bottom of a furnace forehearth and rendering the portion of the forehearth without the slot adjustable relative to the other portion thereof to vary the width of the discharge slot as desired.

A further specific object of the invention is the provision, in combination with a vertically adjustable forehearth from which a. stream of ware forming glass flows, ofasubjacent leer section into which the stream passes, which section is verticall adjustable to correspond to any vertical a justmentof the forehearth so as to maintain the distance between the same substantially constant, the torehearth and leer section preferably being connected together for adjustment in unison.

Further objects and advantages of the invention will be apparent from the following detailed description thereof.

While the invention, in its broader aspect, is capable of embodiment in numerous forms, a preferred embodiment thereof is illustrated in the accompanying drawings, in which,--

Figure 1 is a to plan view of an apparatus embodying 1e invention, with parts fragmentarily shown. Fig. 2 is an enlarged section on the line 2-2 in Fig. 1. Fig. 3 is a central vertical section on the line 3-3 in Fig. 1, with piarts broken away and parts shown in full. ig. 4 is an enlarged section on the line 47-44 in Fig. 3. Fig. 5 is a vertical cross-section on the line 5-5 in Fig. 3. Fig. 5 is a detail partly in longitudinal section of the flexible cooling fluid connection for the aprons. Fig. 6 is a vertical cross'section on the line 6-6 in Fig. 3. Fig. 7 is an enlarged fragmentary perspective view Of a front corner portion of the forehearth and of the supporting means therefor. Fig. 8 is an enlarged fragmentary sec tion on the line 8-8 in Fig. 3, with parts broken away. Fig. 9 is an enlarged section on the line 9-9 in Fig. 8. Fig. 10 is a vertical section on the hue 10-10 in Fi 8, through one of the cooling and fee ing units, with parts broken away and parts in full. Fig. 11 is an enlarged section on the line 11-11 in Fig. 5, with parts broken away. Fig. 11 is a cross-section of a slightly modified form of two bars of thecooling apron. Fig. 11 is a cross-section of a slightly modified form of the sheet gripping bars. Fig. 12 is an enlarged fragmentary cross-section of a modified form of the seharge slot forming portion of the forehearth. Fig. 13 is an enlarged face v ew of a numberof links forming the cooling aprons in assembled relation and with parts broken away. Fig. 14- is a perspective view 7 of two of the chain links of the cooling severing means for the sheet with the former in normal and Fig. 18 Fig. 15.

Fig. 19 is an enlarged fragmentary'section',

on the line 19-19 in Fig. 18, .with parts in full. Fig. QQ is a fragmentary section on the line 20 20 in Fig. 18, with parts broken away. Fig. 21 is a section on the line 2121 in Fig. 20. Fig. 22 is a section on the line 22-22 in Fig. 21. Fig. 23 is afraentary side elevation partly in sec tion of the leer. Fig. 24 is a side elevation of the jointed ends of two track rails of I the leer. Fig. 25

is a cross-section thereof. Fig. 26 is a top view thereof, and Fig. 27 is a view similar to Fig. 11 with an open sheet gripping member at one side.

Referring to the drawings, A designates a gass melting furnace, refining tank or other suitable source of molten glass supply which, for convenience, ma hereinafter be referred to as a furnace, an F a forehearth into which the glass passes from'the fur,-

hil

nace and then flows downward in a stream a, in the present instance, of. sheet form, through a bottom slot or elongated discharge 0 ening in the forehearth bottom. The s eet a passesdown between a pair 'of-olpposed cooling aprons or blankets C C, t

lankets moving with and being spaced from the sheet, except at predetermined spaced ipping points, so that the blankets in adw 'tlon to serving as cooling means for the sheet also act to control the downward feeding movements thereof. The sheet a after assing from between the cooling aprons is rther cooled or has its temperature controlled by passing between opposed stationary temperature controlling parts D, D and then enters a subiacent leer E, being successively severed into separate sections 6 as it enters the leer, which sections are deposited I in trucks or carriers F that have a slow feedin ovement through the leer.

efurnace A is mounted in any suitable 17 are enlarged fragmentary nee-nose manner on a stationary framework or support 1 and is provided in its front end wall 2 with an opening 3 through WhlCh the molten glass passes into the forehearth B.

A vertically adjustable frame G, Fi s. 1, 3, 5, o, 15, 1s and 20, is mounted in front of the furnace A in substantially enclosing relation to the .forehearth B and has its lower portion disposed in position for the leer Fl below the same. four upright posts 4 arranged in rectan ular relation and each extending down t rough a box 5 mounted on, a door 6 or other stationar support and enclosing a worm-wheel 7 t rough, the hub of which the post is threaded. It is thus evident that a turning of each worm wheel. will eflect a raising or lowering of the associated post .4, depending on the directlon of turning of the wheel. The worm wheels 7 are geared to respective shafts 8, which connect the boxes 5 in pairs and which are connected together by a chain and sprocket wheel connection 9 (Fig. 20), and one shaft is in geared connection with a motor 10 thereby enabling the shafts to be driven in unison from the motor, to sheet a simultaneous raising or lowering of the posts 4. The posts 4 pass through res 4 provided in a stationary 'ramework 12 disposed above the point of passage of the leer through the frame The-upper portion of the frame G rests on posts 4 for limited horizontal movements the relative thereto toward and away from the front end of the furnace A to allow for contraction and expansion under varying heat conditions. This portion of the frame comprises a pair of transversely spaced to extend transversely through or.

This frame includes the ectlve guides 11 longitudinally extending beams 13 support-v ed at their ends by front and rear corner upright posts 14, which in turn are m0unted at their lower ends on respective front and rear cross beams 15, which are supported by and have movable bearings 16 on the upper ends of the respective front and rear posts 4. The rear uprights 14 are transversely tied together by a top cross beam 17. A beam 18 connects the front and rear uprights 14 of each side pair of uprights of the frame G at a distance below the top beams 13, and each beam 18 preferably is of double channel bar construction with the web portions of the bars disposed in facing relation and slightly spaced apart, as best shown in Fig. 7,1for the purpose hereinafter described.

The forehearth B is supported from the frame G within the upper portionthereoffor vertical adjusting movements therewith by a cradle structure, as hereinafter described, and in the longitudinally aligned separable sections 20 and 21 adapted to abut at their inner ends ldll erated adjusting neeaeoa and forming an elongated chamber 22 which is preferably closed at its top, bottom, sides and outer end except for the provision of a glass discharge slot in the bottom thereof, and has its inner end open to register with and permit glass to flow therein from the furnace opening 3. Burner receiving openings 22 are provided in the walls of'said chamber. The inner end of the forehearth is preferably provided with an enlarged headpiece 23 which has sliding; coaction with the outer side of the furnace end 2. It is preferable to face the meeting surfaces of the parts 2 and 23 with plates 24. of nichrome or other suitable high heat resisting material, or at least the lower portions thereof with which the glass may come in contact. The glass which enters the forehearih chamber 22' does not cover the entire bottom of the chamber but is confined within a troughlilre portion thereof formed by side walls 25 and an outer end wall 26 rising from the chamber bottom in spaced relation to the side and end wall thereof. thereby protecting the glass from the cooling action which would result if it had contact with the outer side walls of the chamber. Said directing trough is open at its inner end to the furmice opening 3 and its bottom is preferably slightly tapered downward and outward to the bottom discharge slot 27, which is dis posed transversely of the :iorehearth and in the line of separation of the sections and 21 thereof. The end wall 26 of the glass directing trough is carried at the inner end of the forehearth part 21 and forms a liptile or block, the inner ."de of which is tapered downward and inward to the discharge slot and cooperates with an opposed correspondingly tapered lip-tile or block 28 at the forward lower bottom edge of the forehearth section 20 to form the discharge slot 27. The lip-tiles 26 and 28 have end flanges forming parts oi the trough walls 25. Plates 25 are secured to the forward ends of the walls 25 at their outer sides and lap the ends of the block are to prevent leakage of glass thercbetwccn when the fore hearth section 21 is adjusted to widen the slot liiie lower adiacent edges oi the lip-tile 26 and 28 are preferably provided with lipplaies 29 of nichrome or other suitable heat resisting: material, which are removably held to the respective lip-tile by bottom plates 30 and 31 extending lengtlu wise thereof. The plates 31 extend beyond the sides of the forehoarth B and are suspendingly attached at their ends to upwardly extending adjustin rods 32 (Fig. 5), which extend up through respective mounted on the adjacent side beams 18, and thread through hand op wheels 3st in said brackets. it is thus evident that the lip-tile 26 and 28 and respective bottom plates 29, 30 and 31 may be lowered from the forehearth, to facilitate repair or replacement of the parts thereof, by a turning of the hand wheels 34. It is preferable to employ the lip plates 29 as resistance heaters in an electric circuit to heat the contacting surface portions of the glass stream the desired extent as it flows from the discharge oriiicc. Nothing novel is claimed for this feature, however, inthe present application. In Fig. 12 the lipplates 29 are provided at their outer edges with downwardly extending lip edges 2S) which contact tl'iroup hout their lengths with the glass and terminate in sharp edges, thereby preventing any tendency of the g ass to follow down the outwardly inclined end surfaces of the lip-plates.

The inner section 20 oi the iorehearth B is carried by U-shaped c 'adle members com prising the cross-beams 35, which extend under the bottom of the section, and the uprights 36, which extend up at the outer sides of the section and between the side beams 18 of the frame G to which beams they are iixcdly secured by rivets, or in any other suitable manner, as shown in Fig. 5. The head block 23 oi-tbe inner section 20 rests on the rear cross-bcaln 15 of the frame (it. A buck-stay it? rises from the outer end of each cross-beam 235 in engagement with the outer rcspcctive sides of the iorehearth section so and these stays are connected in pairs crosswise oi the forehearth by stay bolts 38.

The outer adjustable forehcarth section 21 has a movable cradle support comprising two cross'beams 3.9 extending under the section, and side plates or members 40 rigidly connect the ad acent ends oi: the beams 39 and rise therefrom loosely through the spaces between the members of the side beams 18, as best shown in Figs. 3. 6 and 7. The plates dOabovc the beams 1.8 are provided with longitudinally extending oppositely projectingside flanges 41 etween which and the upper edges of the respective beams 18 are disposed rollers or anti-friction means 42, which permit free movements of the cradle longitiulinally of the supporting beams 18. The spindles carrying the rollers 4.2 in pairs project through slots 4:3 in the plates 40. Buck-stays i4 rise from the crossbeams 39 at the sides of the 'forchearth sec-- tion 21 and are connected in pairs at their upper ends above the section by tic-rods 45. It is evident that the cradle 39, 4.0 may be moved backward and forward on the beams 18 of the frame (,iand carry the foreheartli section 21 therewith to'effect an adjustment of the width of the glass discharge slot 27. The seam or space between the adjacent ends of the top walls oi the forehearth sections may be covered by lapping members 46 if desired. (Figs. 1 and 3.)

An adjustment of the cradle 39, 40 is cab Mid nae

fected by a turning of screws 47,. which are journaled in hearings on the front upright members 14 of the frame G and have their inner ends threaded into bosses it; on the respective cradle plates 40. Each screw shaft 47 has a right and left ratchet means mounted on its inner end, the wheel 49 of which is fixed to the shaft, Whilethe lever The construction and manner of mount- I ing the cooling and feed control aprons G will now beldescribed. A plurality of bars 55, in the present instance four in number, are pivotally suspended from each top beam 100 of the frame li-ll, hereinafter described, down at the respective sides of the forehearth and below the same, and each is piv otally connected at its lower end to the adjacent end of a respective cross-shaft 56, as shown in Figs. 3 and 8. The two rear shafts 56 carry a frame yoke 57, and the two front shafts 56 carry a frame yoke 58. Each of these yokes, in the present instance, is of reclining U form, and each has an arm 59 projecting inwardly therefrom. A vertically disposed web-like frame 66, Fig. 10, projects from each arm 59 in parallel relation between the yokes or and 58 in spaced relation thereto and to each other, and each has upper and lower shafts 61 and 62 journaled therein transvers ly of the forehearth and in parallel relation. Each shaft has a sprocket wheel 63 on each end, and these wheels guide the movements of each apron G which extends around the respective frame member 60. lhe lower 62 of each set, in the present instance. is connected through a flexible joint with a respective drive shaft 64, which is in flexible dri en connection at its other end with any suitable source of power. in the present instance the shafts 64 have end sections 6 h journaled in a gear case 65 and connected therein by pinions 66 to turn in unison at the some speed. @ne shaft section 64 is in driven connection through a set of gears '67 with a motor 68. The shaft 64: is shown as having longitudinally adjustable'sections to permit it to accornnrodate itself to any adjustment of the aprons. The yokes 5? and 58 and frame parts and aprons C carried thereby are adjustable inward and outward with respect to each other. as hereinafter described, to elfect widening or narrowing of the space between aprons. The purpose mount ing the'aprons G in the manner descrihed to the side edges of the the thereof.

is moved are each composed of a plurality of closely jointed hollow pads T5 which are convex at one edge and concave at the other to adapt the successive pads to be disposed 1n close interengaging relation for relative pivotal movements in themanner of links of a chain (Figs. 11 and 13). Each pad has a hollow spindle 7 6 projectin from each end thereof and offset from its llingitudinal center toward the convex edge of the pad. being disposed in concentric-relation to such edge. The pads are successively connected together at each end by angled links 77, each link pivotallyconnecting adjoining spindles 76 so that the several pads of each apron are connected together in continuous chain form. A roller 78 is mounted on each spindle 76 without" the links 7? thereon for en gagement with the sprockets wheels 63. The rollers 7 8 are held in osition against the links 7? by spacing col ars Yd". The spindles 7 6 of successive pads are conn'ectedtogether in pairs at their outer ends by return couplings ?9, which provide communication between successive pads through the spindles The couplings 79 at one edge of the apron are disposed in stag cred or alternating relation to the coir drugs at the other edge of the apron so .t at a cooling; .tluid will circulate backward and forward continuously through the successive pads from the inlet to the outlet points. The couplings 79 are secured to the spindle ends in any suitable-manner to prevent leakage at the joints, as illustrated in Fig. 1?. Que or more couplings 79 of an apron has an inlet arm '79 connected by a flexible connection 80 to a means (not shovm) for forcing a cooling fluid through the apron, as for instance, to the city water line, and. another coupling has an outlet arm 81 from which may discharge. A detail of one f is connection 80 is shown in Fig. strates it as havin two flexible joints a telesooped longitudinally extensible sectionloetween the points. it is evident that the fluid may flow through the apron either in Blue or oppositedirections from the inlet 79 to one or more outlets 81. The "Z55 are of shell ferns and permit the passage of quite a volume of cooling fluid therethrough so to effect loy radiation a rapid cooling of the glass sheet passing between the two aprons.

The aprons C are intended to cooperate to grip the sheet a therehetween at predetermined intervals by the provision of raised or outwardly projecting surfaces 32 on cerdischarge orifice.

. two .separated points meme;

tain opposing pads thereof, as shown in Fig. 11. The pairs of sheet grippin pads 75, 82 of the two aprons are pre erably so arranged that one pair of pads moves into gripping engagement with the sheet near its formative point while the pa r of pads which last engaged the sheet is actuated to release the sheet. In other words, the period of engagement of the sheet by one set of gripping pads is approximately simultaneous with the period of release .of the next lower set of gripping pads from the sheet. This is important as 1t provides a continuous one-point sup orting engagement forthe sheet so that t e sheet is free to stretch out below such point, thus preventing any tendency of the sheet to wrinkle by reason of its being supported at while in a soft or fiowing condition. It will be understood that if a soft sheet of glass is engaged at two vertically spaced supporting points, the tendency of the glass, if sufiicient y softor fluid tor such purpose, is to stretch or thin out downwardly from its upper point of engagement and to thicken toward its lower point of engagement, thereby not only providing a sheet section which is of tapered form in vertical section, but also occasioning wrinkles in the glass toward the lower end of the section. For this reason it is importantto release one set of gripping pads from the sheet approximately simultaneous with the engaging of the next set of gripping pads w th the sheet. The engagementof the gripping pads with the sheet tends to hold the sheet centrally in the space between the two aprons and out of contact with either, thus preventing any marring of the sheet surfaces by the aprons at points intermediate the gripping pads. It will be understood that the speed of driving of the aprons C 15 regulated to suit, the speed at which it is desired to deliver the sheet a from the source, the aprons thus serving as a feed controlling means and taking the weight of the sheet so as to relieve the soft glass at the discharge orifice from the gravity pullin action of such sheet, at least some extent, i the weight had too great a stretching or thinning action on the glass at its point of flow from the In Fig. 27 one cooling apron is shown as removed and an open form 0 sheet engaging and feeding member sub stituted.

The gripping of the sheet at intervals by the gripping pads of the aprons tends to prevent the sliroiiding which might other wise occur in the sheet by reason of the edge ortions thereof cooling more rapidly than its central portion so that the central portion would be permitted to sag down with respect to the edge portions. This shrouding action might also occur if the sheet were gripped only at its edges by feed controlling or supporting means. The spacing of the sheet gripping pads is such, however, that there is little, if any, tendency of the sheet to sag or shroud intermediate the gripping points.

An important function of the sheet gripping pads is to provide the sheet at intervals with integral cross-bar or truss portions 0, which, by the time the gripping pads forming the same have released the sheet, will have become sufliciently chilled by the cooling action of the pads as to become permanently setand thereby act as rigid cross-bars for preventing shrouding, sagging or narrowing in of the interposed soft portions of the sheet after passing from between the aprons C. It is preferable to form the integral cross-bars a in the sheet by pressing engagement thereagainst of the gripping pads of the aprons, but such crossbars may be formed in any other suitable manner, as for instance by directing a stream or blast of cooling fluid against the portion of the sheet surfaces intended to form the cross-bars. This may be accomplished by providing opposing pairs of pads 75 of the aprons with perforations 7 5 (Fig. 11) for directing a cooling fluid from the interior of the aprons against the sheet at the points where it is desired to form the integral hardened cross-bars. In this case the grip p ng bars could be eliminated. If it is desued to increase the strength of the truss sections a the gripping portions of. the pads may be corrugated or otherwise suitably formed to impart a corresponding form to the truss sections, as shown in Fig. 11".

The sheet a, after passing from between the aprons 0, passes between opposed temperature regulating members D, which are free from contactgwith the sheet surfaces and have chambers 85;: to permit the circulation of atemperature controlling fluid therethrough. The chambers 85 have fluid circulating pipes 96 leading to and from the same and provided with flexible connections 87 to permit inward and outward adjustment of the members. The members D are suspended from. the respective frame-yokes 57 and 58 by respective arms 88 rojecting downward and inward therefrom FFig. 3).

The leer E into which the sheet (1 passes after merging from between the temperature controlling-members D has a movable sect on 90 (FlgSr15 and 18) dis osed a short distancebelo'w the members and having an opening 91 in its top through which the sheet a passes into the'leer. The leer section 90 is open atits ends and has a leer section 92 extending into or in substantially closed connection with its forward end and movable to permit vertical movements of the section 90. v The remaining portion 93 of the leer is stationary, as shown in Fig. 23. Two rails 94, forming a track,are provided lid eel

ering movements therewith. The frame H' tive. thereto.

. and slot connection,"

bar 103 is fixed to ,96, each adapted to receive a single section b of the glass sheet as the truck advances under the sheet. it will be understood that the sections 6 of the sheet are divided by the integral cross-bars 0 therein and'that after a section has passed into a registering compartment 96 and is near the bottom. thereof a cutting or breaking off means acts on the sheet at or adjacent to the cross-bar c at the upper end of such section and effects a severing of the section from the sheet. The trucks F, in the present instance, are mounted on free rolls 97 travelling on the rails 94 andloosely The rails 941 at the joints between the relatively movable leer sections are in lapped pm as shown in Figs. 2 1, 25 and 20.

The movable leer section is suspended from the to portion on the top beams 13 of the frame I01 horizontal movements longitudinally thereof and for raising and lowcomprises a pair of top beams or members 100 disposed at the outer sides of the beams 13 parallel therewith and having rollerslQl carried by and projecting inward therefrom .on the tops of the respective and resting longitudinal movements therebeams 13 for on. Thebeams 100 are tied together at their front and rear ends by cross-bars 102, and a and rigidly suspended fgom the front and rear ends of each beam 1 O. 103 are connected in pairs at their lower ends by cross-bars 10 1 and 105 extending respectively over and under the adjacent ends of the leer section 90 to which they are attached, whereby such section is carried by the bars 103 for movements therewith. The bars 55 which carry the aprons Cand temperature controlling members D are also sus pended from the top beams 100 of the frame H. It is thus evident that the cooling aprons C, temperature controllindg members 1) and leer section E are carrie by the frame H as a unit for vertical movements with the frame G and for horizontal movements rela- The horizontal adjustment of the frame H is efiected by a turning of a pair of screw shafts 106' one of which is journaled in a bracket 10% (Fig. 1) on the forward end of each beam 13 of the frame H; The end of each shaft 100is threaded into a front end tied together by links 98.

The two rear and the two front bars.

portion of the respective beam 100 whereby a turning of the shafts will impart horizontal movement to the frame H on the frame G. Each and sprocket wheel connection 108 with the subjacent screw shaft 47 so that a turning of said latter shafts by an operation of the ratchet arms 50 will impart simultaneous turning movements to the shafts 106. The sprocket wheel of the connection 107 which is located on the shaft 47, is one-half as large as the sprocket wheel on the shaftof the ratchet 106, so that upon an operation means the frame H will be moved inward or outward as the case may be atone half the speed of movement of the forehearth section 21 to which the screws 47 are connected.

A bracket arm 110 is connected to each bar 103 of the frame H for shaft 111 is journaled in each forward and rear bar of these arms (Figs. 1, 3-and 8). Each shaft 111 has a crank or eccentric portion 112 near each end and connected by a 56 of the set. on each end of shaft 106 is'in chain vertical swing adustment relative thereto, and a separate,

The automatic means employed in the 1 present. instance for severing or breaking the sheet a into sections, includes a stationary breaker bar 115, which is rigidly secured within the leer section 90 crosswise thereof and slightly above the trucks 1, able breaker bar 116, which extends across the leer section 90 and is movable toward and away from the bar 115 to coact therewith to break ofii an interposed sheeta along the chilled brittle cross-bar 0 thereof. The movable bar 116 projects at its ends without porhome of the side opening of the leer section 90 and has arms 117 projecting therefrom longltudinally of the I rack teeth on their inner sides (Figs. 18 and 20). hese arms are fixedly carried by ibrackets118 projecting from the side of the cor.

A vertical shaft 119 is mounted at each SE16. of the leer section 90 .in brackets 120 pro ecting therefrom.and "has a segmental pinion 121 meshmgwith the teeth of the ad- Jacent rack arm 11 whereby rocking movements of the shaft will movements to the breaker 122 projects inward from the upper end of at their inner ends to lever 123-moimted on a stud projecting from leer and provided with impart reciprocatory bar 110. An arm" and a mov res ective link 113 to the adjacent end of W i the top of the lever section 90. A rod 124 connects the other end of the lever to one arm of a bell crank lever 125 pivoted to a stationary part 126 at a side of the leer. The other arm of the lever125 is connected by a rod 127 to a plunger 128, which is mounted for reciprocator movements in the case 65. A cam-gear 129 15 mounted in the case 65* and driven b one of the pinions 66 at the desired speed. in one or both sides "thereof in which a pin or roller on the plunger 128 travels, whereby a reciprocatory movement is imparted to the plunger at each predetermined length of a movement of the sheet a.

The rocking of the shafts 119, in addition to operating the breaker-bar 116 is also utilized to impart step by step advancing movements to the trucks F. For this purpose each shaft 119 is provided at its lower end with a rocker member 140 having a socket 141 therein. A plunger 142 is mounted in the socket and has a stem projecting axially therefrom through one end wall of the socket and carrying a pawl 143' for engagement with successive ratchet teeth 144 on the adjacent lower edge, portion of each truck F when the shaft 119 is rocked. A spring 145 acts on the plunger 142 to normally project the pawl into ratchet tooth engaging position. The outward swinging movements of the pawl are limited by a pin 146 on the pawl stem engaging the bottom wall of the socket. The ratchet teeth 144 are formed in bars which extend lengthwise of the lower edge portions of the truck'bodies at each side thereof and substantially abut at their ends against the ratchet bars of adjoining trucks. It is evident that when the shafts 119 are rocked in one direction the pawls 143 will swing back over one or more ratchet teeth dependin on the extent of swinging movement of t e pawls, and that upon a forward rocking thereof the pawls will engage teeth in the ratchet bars and impart a predetermined forward feeding movement to the trucks. Each feeding movement of the trucks corresponds in length to the distance between the centers of adjoining compart-' ments 96 of the trucks. The leer section 90 is engaged at its forward lower edge portion by one or more screws 147 to prevent a forward movement 'of the section with the trucks when advanced.

A manually operated sheet severing or breaking-off means is mounted on top of the leer section 90 and includes a pair of op posed rolls 150 between which the sheet passes and having a pair of opposed sheet engaging and breaking-off ribs 151 thereon. The rolls are journaled at their ends in respective brackets 152 rising from the leer section. The rolls are geared together to have opposite turning movements. and an operating crank 153 is provided at the end of his cam-gear has a cam-groove 130' passes one roll. This manually operable severing meansis particularly useful when, as in first starting or adjusting the apparatus, portions of the sheet are imperfect, as it makes possible the removal 'of such portions without passing them through the leer.

In the manufacture of sheet lass by my method and apparatus the fore iearth B is vertically adg'usted with respect to the surface of the g ass in. the tank or furnace A to secure the desired head of flow of the glass through the trough portion of the forehearth to the discharge slot 27 thereof, theglass thence flowing downward by gravity through said slot in sheet form, the thickness of the sheet usually being determined by the width of the slot, the consistency of the glass and the glass head or pressure above the slot. The forehearth B is carried by the upper portion of the frame G, and its vertical adjustment is effected by a raising or lowering of said frame which in turn is accomplished by a running of the motor 10to'dr1ve the several worm wheels 7 that support and are threaded on the lower ends of the frame uprights 4. The sheet after leaving the slot 27 down between the feed controlling and cooling aprons or blankets C and then passes down between the temperature regulating members D which either cool the glass or maintain it at the temperature at which it should have when entering the leer E. he aprons C completely cover bothsides of the sheet from a point near the discharge slot to a desired distance down from the same, but are free from surface marring contact with the sheet exceptat'the points of opposed gripping of the pairs of gripping bars of the aprons thereagainst.. The gripping bars of each apron are preferably so spaced lengthwise of the aprons that immediately after one. pair of cross-bars has engaged the sheet, the pair of cross-bars which previously engaged the sheet will release the same, thereby preventing the sheet, which is more or less soft during its passage between the aprons, from being gripped for any considerable period bymore than one pair of gripping bars. This is important for if the aprons or feed controlling means wereto remain in spaced gripping engagement with the sheet for any considerable period the portion of the sheet between the two gripping points would have atendeney, due to gravity, of thinning at its upper portion and thickening at its lower portion and to wrinkle and warp due to such action. By releasing one set of grip ing bars from the sheet at approximately t e time ofengagement of the next succeeding set of gripping bars with the sheet the weight of the sheet exerts a slight stretching or pulling action on the sheet, thereby preventing the warping and wrinkling which might otherwise occur. The engagement of the sheet by the cross- 

